A wide bandgap conjugated polymer based on a vertically connected benzodithiophene unit enabling efficient non-fullerene polymer solar cells

Liu Yuhang; Chen Shangshang; Zhang Guangye; Chow Philip C. Y.; Yan He

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A wide bandgap conjugated polymer based on a vertically connected benzodithiophene unit enabling efficient non-fullerene polymer solar cells

机译：基于垂直连接的苯二脱噻吩单元的宽带隙缀合聚合物，从而实现有效的非富勒烯聚合物太阳能电池

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We report a wide bandgap polymer PvBDTffBT based on a new building block: a vertical-benzodithiophene (vBDT) unit. Compared to traditional BDT based polymers, the vBDT unit in PvBDTffBT is connected via the phenyl group instead of the thiophene unit. Such modification leads to stronger torsion between the vBDT unit and the adjacent thiophene, which increases the bandgap of the polymer and introduces significant changes in the film morphology. When blended with a state-of-the-art narrow-bandgap small molecular acceptor (ITIC-Th), we find that this polymer modulation strategy significantly improves the photovoltaic performances from 3% to over 8%.

机译：我们以新的构建块报告宽的带隙聚合物PVBDTFFBT：垂直苯二碳烯（VBDT）单元。与传统的BDT基聚合物相比，PVBDTFFBT中的VBDT单元通过苯基代替噻吩单元连接。这种改性导致VBDT单元与相邻噻吩之间的扭转较强，这增加了聚合物的带隙并且引入了薄膜形态的显着变化。与最先进的窄带隙的小分子受体（ITIC-TH）混合时，我们发现这种聚合物调制策略显着改善了3％至超过8％的光伏性能。

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《Journal of Materials Chemistry, A. Materials for energy and sustainability》 |2017年第29期|共4页
作者
Liu Yuhang; Chen Shangshang; Zhang Guangye; Chow Philip C. Y.; Yan He;
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Hong Kong Univ Sci &

Technol Energy Inst Dept Chem Kowloon Hong Kong Peoples R China;

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正文语种 eng
中图分类工程材料学;
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1. A wide bandgap conjugated polymer based on a vertically connected benzodithiophene unit enabling efficient non-fullerene polymer solar cells [J] . Liu Yuhang, Chen Shangshang, Zhang Guangye, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2017,第29期

机译：基于垂直连接的苯二脱噻吩单元的宽带隙缀合聚合物，从而实现有效的非富勒烯聚合物太阳能电池
2. Efficient non-fullerene polymer solar cells based on a wide bandgap polymer of meta-alkoxy-phenyl-substituted benzodithiophene and difluorobenzotriazole [J] . Li Wanbin, Li Guangda, Guo Xia, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2017,第37期

机译：高效非富勒烯聚合物太阳能电池基于宽带凝胶聚合物的Meta-烷氧基 - 苯基取代的苯二苯甲乙烯和二氟苯并三唑
3. Low-bandgap conjugated polymers based on alkylthiothienyl-substituted benzodithiophene for efficient bulk heterojunction polymer solar cells [J] . Wang Xunchang, Tong Jinhui, Guo Pengzhi, Polymer: The International Journal for the Science and Technology of Polymers . 2017,第期

机译：基于烷基噻吩基取代的苯二噻吩的低带隙缀合聚合物用于有效散装杂交聚合物太阳能电池
4. LOW BANDGAP COPOLYMERS WITH (ALKYLSULFANYL)BITHIOPHENE UNIT FOR EFFICIENT POLYMER SOLAR CELLS [C] . P. Morvillo, F. Parenti, R. Diana, European Photovoltaic Solar Energy Conference and Exhibition . 2012

机译：具有高效聚合物太阳能电池的带（烷基磺酰氧基）联苯单元的低带隙共聚物
5. Low bandgap conjugated polymers for organic solar cells. [D] . Xu, Tao. 2013

机译：用于有机太阳能电池的低带隙共轭聚合物。
6. Comparison Study of Wide Bandgap Polymer (PBDB-T) and Narrow Bandgap Polymer (PBDTTT-EFT) as Donor for Perylene Diimide Based Polymer Solar Cells [O] . Tengling Ye, Shan Jin, Cong Kang, 2018

机译：宽带隙聚合物（PBDB-T）和窄带隙聚合物（PBDTTT-EFT）作为Per二酰亚胺基聚合物太阳能电池供体的比较研究
7. Wide-bandgap donor polymers based on a dicyanodivinyl indacenodithiophene unit for non-fullerene polymer solar cells [O] . Baitian He, Yulin Chen, Jinglong Chen, 2021

机译：基于双富烯聚合物太阳能电池的二氰基氨基茚满噻吩单位的宽带隙供体聚合物
8. Highly Crystalline and Low Bandgap Donor Polymers for Efficient Polymer Solar Cells. [R] . Liu, J., Choi, H., Kim, J. Y., 2012

机译：用于高效聚合物太阳能电池的高结晶和低带隙供体聚合物。

A wide bandgap conjugated polymer based on a vertically connected benzodithiophene unit enabling efficient non-fullerene polymer solar cells

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